Grade Results’ career pathways have course subjects in 17 career clusters. Students can take classes tailored to their cluster, no matter what they choose to do after high school graduation. Each cluster will include multiple career pathways.
Grade Results offers a variety of certification courses that sets high-school graduates and older adults on the path to success. There are several fields available which include technology and humanities certification courses.
Project-based learning is an instructional approach that utilizes learning activities that motivate and engage students’ interest and are designed to help students solve real-world problems.
The Grade Results platform uses its cutting-edge Learning Management Software (LMS) to accommodate blended learning.
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Are you creative or innovative? Are you an inventor? Peering into history we find the human race has been effective at piecing together ideas from their natural resources. New ideas are created every day, sometimes by accident, sometimes out of a need to solve a local or world problem. Let’s begin our discussion by first understanding how we have arrived at today’s technology and concepts of engineering.
What will you learn in this unit?
In this unit we peer into the atom and its properties. We identify what electricity is and how we can manipulate the electrons of an atom. We will cover some invaluable formulas that allow us to quantify electricity as it is applied to the generation and consumption of energy.
What will you learn in this unit?
As technology advances, so do the tools of discovery. The historical experiments, formulas, and data collection of the past have led to many amazing discoveries, yet we don’t stop there. Imagine if advances in the light bulb stopped with Thomas Edison; perhaps his invention would have sufficed if we didn’t know better. Since Edison first illuminated his world, the light bulb hasn’t changed because of a newer type of coiled metal filament. Rather, it was a process of innovation driven by our understanding of the atom and how we can manipulate known elements that continue to allow advances to happen. The latest light bulb technology generates less heat and extends the life of the bulb, and it achieves this by employing easier manufacturing methods. Many times new technology is integrated into existing processes as manufacturers make the transition from one product to the next. Some processes just make sense to keep. In this unit, we will compare examples of technology processes that have remained essentially unchanged with others that are always evolving in the process of becoming greater.
What will you learn in this unit?
Have you ever wondered how computers think and answer questions? How applications make extensive use of artificial intelligence? Humans may think logically, but do computers? To answer these questions, we must first identify how we make decisions in our world with given choices. How is a question asked and how is an answer delivered? We will find that, with the proper electronic components, we can mimic the yes and no answers using on and off digital signals. In this unit, we will view the transition from analog devices with vacuum tubes and hand-wired circuitry to far more complex digital signal processing using digital integrated circuits (IC).
What will you learn in this unit?
Engineers design, invent, and create; they solve problems. They need tools to assemble their ideas as well as tools to make adjustments and test that their ideas are working properly. Those tools were once just an idea themselves and eventually became the appropriate tool for specific applications.
What will you learn in this unit?
Before there was a formal study of science, there was natural philosophy. Philosophers sought to understand the natural world by questioning how it all operated. They theorized and kept records of observations about the world. Eventually, mankind sought to manipulate the resources found in the world for the benefit of both the inhabitants and the environment. Today’s scientists seek to understand this natural world and help advance our knowledge one step further into the future with each experiment.
What will you learn in this unit?
Our technological resources are the ingredients that an engineer will use to cook up an awesome design. Some of the technological resources by themselves will be limited in purpose; however, when combined like pieces in a puzzle, a great piece of artwork develops to serve a greater good. For example, a thermometer alone can give us data from its temperature reading, but when coupled with an alarm or flashing light it can now become an alert, a method of communicating information to us, or when coupled with a switch, it can now turn on or off an electrical signal at a set temperature for air conditioning. The efforts of how the engineer arrives at a solution still follow a logical order and are itself a process. In this unit, we will break down those steps that engineers take in order to arrive at their goal.
What will you learn in this unit?
The most complicated event of invention and innovation is taking the idea from the mind and moving it into the real world. As much as you can verbally express an idea, most of the time it is not until you sketch or model that idea that others understand it. The invention of paper, in itself, has brought us a method of expressing ideas, and it even acts as a medium to store that knowledge. With the onset of computers, we now have vast storage space to design multistory buildings and multilevel ships that may be accessed via virtual reality. Elements inside those models can even be manipulated in that virtual space. Once a design is realized, it can be simulated, testing its physical properties while still in the computer. Once finalized, it can be prototyped or placed into production. From a computer file, an object or idea can be run through various manufacturing processes including 3D printing, laser cutting, or even computerized milling. These and many other machines take the design and produce the object. Our advances in materials manipulation and production allows ideas to move from our brain to the computer and into a prototype or even final production sometimes as quick as a few minutes. This unit identifies those key features that our ideas prototyped.
What will you learn in this unit?